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CLINICIAN'S CORNER
Late vs Early Clamping of the Umbilical Cord in Full-term NeonatesSystematic Review and Meta-analysis of Controlled Trials
Eileen K. Hutton, PhD;
Eman S. Hassan, MBBCh
JAMA. 2007;297:1241-1252.
ABSTRACT
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Context With few exceptions, the umbilical cord of every newborn is clamped and cut at birth, yet the optimal timing for this intervention remains controversial.
Objective To compare the potential benefits and harms of late vs early cord clamping in term infants.
Data Sources Search of 6 electronic databases (on November 15, 2006, starting from the beginning of each): the Cochrane Pregnancy and Childbirth Group trials register, the Cochrane Neonatal Group trials register, the Cochrane library, MEDLINE, EMBASE, and CINHAL; hand search of secondary references in relevant studies; and contact of investigators about relevant published research.
Study Selection Controlled trials comparing late vs early cord clamping following birth in infants born at 37 or more weeks' gestation.
Data Extraction Two reviewers independently assessed eligibility and quality of trials and extracted data for outcomes of interest: infant hematologic status; iron status; and risk of adverse events such as jaundice, polycythemia, and respiratory distress.
Data Synthesis The meta-analysis included 15 controlled trials (1912 newborns). Late cord clamping was delayed for at least 2 minutes (n = 1001 newborns), while early clamping in most trials (n = 911 newborns) was performed immediately after birth. Benefits over ages 2 to 6 months associated with late cord clamping include improved hematologic status measured as hematocrit (weighted mean difference [WMD], 3.70%; 95% confidence interval [CI], 2.00%-5.40%); iron status as measured by ferritin concentration (WMD, 17.89; 95% CI, 16.58-19.21) and stored iron (WMD, 19.90; 95% CI, 7.67-32.13); and a clinically important reduction in the risk of anemia (relative risk (RR), 0.53; 95% CI, 0.40-0.70). Neonates with late clamping were at increased risk of experiencing asymptomatic polycythemia (7 studies [403 neonates]: RR, 3.82; 95% CI, 1.11-13.21; 2 high-quality studies only [281 infants]: RR, 3.91; 95% CI, 1.00-15.36).
Conclusions Delaying clamping of the umbilical cord in full-term neonates for a minimum of 2 minutes following birth is beneficial to the newborn, extending into infancy. Although there was an increase in polycythemia among infants in whom cord clamping was delayed, this condition appeared to be benign.
INTRODUCTION
Clamping and cutting of the umbilical cord at birth is by far the oldest and most prevalent intervention in humans. In spite of that, the optimal timing of cord clamping has been a controversial issue for decades.1-4 There are no formal practice guidelines, but most practitioners in western countries clamp and cut the cord immediately after birth, while the practice worldwide is variable.5-6
Earlier physiological studies have shown that, of the total blood volume in the combined fetal-placental circulation at full gestation, approximately 25% to 60% (54-160 mL) is found in the placental circulation and that as many as 60% of the fetal red blood cells are found therein.7-10 This blood is also known to be rich in hematopoietic stem cells.9, 11
Previous research has suggested that early clamping of the cord (within the first 5 to 10 seconds of birth), compared with later clamping, results in a decrease to the neonate of 20 to 40 mL of blood per kilogram of body weight,3, 10, 12-13 which would provide the equivalent of 30 to 35 mg of iron.14-15 It has been argued that early cord clamping puts the newborn at increased risk of hypovolemic damage and iron loss, as well as of several blood disorders and type 2 diabetes, as a consequence of loss of hematopoietic stem cells.3, 16-17 Early cord clamping has been postulated as a major cause of anemia in infancy, and this has led some investigators to recommend late clamping as a low-cost intervention to reduce anemia during the first 6 months of life.14, 18 Others believe that the increase in blood volume to the neonatal circulation resulting from delays in clamping may be harmful and could result in overloading the neonatal blood volume, thus increasing the likelihood of respiratory distress,19-20 neonatal jaundice,21 and polycythemia.22-23 In addition, early clamping is part of active management of the third stage of labor to assist with delivery of the placenta, and this management has been shown in a Cochrane review to significantly decrease maternal blood loss following birth.24
Several reviews have studied the potential benefits and risks of late vs early clamping of the umbilical cord. In a recent Cochrane review of cord clamping in the preterm population, late clamping showed some potential benefit in terms of decreased need for blood transfusion and lower risk of intraventricular hemorrhage.25 Reviews to date of studies in term infants provided no strong evidence for the superiority of either clamping strategy.3, 26-27 However, these reviews were based on studies with small numbers of enrolled infants and did not include 2 large, well-designed trials published in 2006. One additional review combined studies of preterm and term infants in a meta-analysis and focused the discussion on practice in developing countries.28 Thus, we believed that an updated rigorous review and meta-analysis of the timing of cord clamping in term infants was needed.
METHODS
We compared the potential benefits and harms of late vs early clamping of the umbilical cord in term infants. Outcomes of interest were decided a priori and included reported or clinically determined jaundice, use of phototherapy, polycythemia (defined as hematocrit increased to >65%),29 tachypnea or respiratory grunting, admission to the neonatal intensive care unit (NICU), and short- and long-term risk of anemia (defined as either hemoglobin concentration <10 g/dL or hematocrit level <46%)30 and iron-deficiency anemia (defined as hemoglobin concentration <11 g/dL and ferritin concentration <10 µg/L).31 We were also interested in determining the short- and long-term effects of the timing of cord clamping on a number of physiological parameters in infants, including the absolute values of hemoglobin, hematocrit, blood volume and viscosity, and bilirubin, as well as iron status measured by levels of ferritin and stored iron.32
Inclusion and Exclusion Criteria
The review included controlled trials (both randomized and nonrandomized) comparing late vs early cord clamping following birth in infants born vaginally or by cesarean delivery at 37 or more weeks' gestation. We included only those studies that reported original data on at least 1 of our outcomes of interest. We excluded studies that exclusively involved preterm infants or low-birth-weight infants, because the potential effects of early vs late clamping are expected to be different in these 2 groups.
Search Strategy
To identify all relevant studies, we performed a literature search on November 15, 2006, in 6 electronic databases (starting from the beginning of each): the Cochrane Pregnancy and Childbirth Group trials register, the Cochrane Neonatal Group trials register, the Cochrane library, MEDLINE, EMBASE, and CINHAL. The search was not restricted by language. We used both the Medical Subject Heading terms and text word search for late, early, umbilical cord clamping, placental transfusion, and term infants: (early or immediate or late or delay*) and (umbilical-cord and clamp* or placental-transfusion) and (term or full-term or infant). We also performed a hand search of secondary references in relevant studies. Investigators working in this area were contacted about any relevant unpublished research.
Data Extraction and Quality Assessment
Both authors independently assessed the eligibility of identified studies and extracted data from included trials using previously prepared standardized forms. Differences in data between the 2 sets of forms were resolved by rereviewing the corresponding articles, and the final set was agreed on by consensus. The methodological quality of each trial was also independently assessed using a modified version of the Jadad scale.33 Trials rated 10 or more are considered high quality. No disagreements existed between reviewers that impacted categorization of trials as being of low quality vs high quality.
Analysis
For the meta-analysis we used Revman version 4.2.34 Double entry of the data into Revman was carried out by the 2 reviewers. For continuous variables, we used the mean and standard deviation reported in the original trials to calculate the weighted mean difference (WMD). We expressed the harmful effects of each clamping practice as the relative risk (RR) of adverse events. Estimates of pooled outcomes with 95% confidence intervals (CIs) were calculated by means of fixed-effects models. We also performed tests of heterogeneity between trials using the  2 test for significance. When heterogeneity between studies was found to be significant as indicated by I2 values greater than 50%, pooled estimates based on random-effects models were reported.35 For those outcomes with adequate data, we performed a sensitivity analysis by comparing the findings of the meta-analysis of high- and low-quality studies together with only those studies that had been ranked as high quality.
Subgroup analyses were planned for possible confounding birth-related practices that had the potential to alter the rate of placental transfusion, including mode of delivery (vaginal vs cesarean), height of infant relative to that of the maternal introitus or placenta during the cord clamping interval, use of oxytocic drugs, and milking of the cord toward the infant.10, 36
RESULTS
Search Results
The search identified 37 English-language studies evaluating the effects of late vs early clamping of the umbilical cord. Of these, 8 randomized (Table 1)32, 37-43 and 7 nonrandomized (Table 2)19, 44-49 controlled trials were included in the review. Three of the included trials were conducted by the same research group, but it was clear from the descriptions that they were based on different samples.44, 47-48 The remaining 22 studies were excluded because they included exclusively preterm infants (12 trials)50-61 or low-birth-weight infants (4 trials),62-65 did not include a control group (2 studies),7, 66 included data previously published (1 trial),67 did not report gestational age (2 trials),68-69 or did not include any of the outcomes of interest (1 trial).70 No studies including only cesarean births were found, and no additional data were obtained from contacts with authors.
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Table 1. Included Randomized Controlled Trials (N = 8) Comparing Early vs Late Cord Clamping in Term Infants, Listed According to Study Quality Score
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Table 2. Included Nonrandomized Controlled Trials (N = 7) Comparing Early vs Late Cord Clamping in Term Infants, Listed According to Study Quality Score
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Description of Included Trials
Eight trials were conducted in countries with low perinatal mortality rates (<10 per 1000 total births), including Canada, Germany, United Kingdom, Sweden, and the United States; 2 in countries with moderate perinatal mortality rates (10-20), including Argentina and Libya; and 5 in countries with higher perinatal mortality rates (>20), including Egypt, Guatemala, India, and Mexico. Six of the 15 trials were of high quality (Table 1 and Table 2). There was no clear evidence of substantial imbalance in the baseline characteristics between the late- and early-clamping groups. Small yet similar percentages (approximately 2.7%) of infants in the late- and early-clamping groups were delivered by cesarean. Outcome data for infants delivered by cesarean were not reported separately from those delivered vaginally.31 The majority of trials (n = 8) defined early cord clamping as clamping within the first 10 seconds.19, 32, 37-38,44-45,47-48 Six trials described early clamping as immediate clamping.39, 41-43,46, 49 The trial by Nelson et al40 was the only trial that extended the early cord clamping definition to be as long as 60 seconds.
Most of the trials defined late cord clamping as clamping either after cessation of cord pulsation or at 3 minutes. Two studies included an additional study group, with an intermediary clamping time at 1 minute.37, 43 To minimize the chance of overlapping between the timing definitions of late and early clamping in this review, data for infants included in these 2 intermediary groups were excluded from the meta-analysis. As a result, the earliest time at which cord clamping was defined as "late" in this review was 2 minutes. The majority of trials did not provide any data about the mean clamping time for the compared groups.19, 39, 41-45,47-48
Our outcomes of interest were not consistently reported by all trials, resulting in several outcomes being reported in only 1 or a small number of the trials. There was variation in the level at which the newborn was kept in relation to the level of placenta or introitus during the clamping interval. In 2 trials, compared with conventional delivery including early cord clamping, late clamping was performed as part of an evaluation of the Leboyer method of labor, which required putting the neonate on the mother's abdomen after birth while waiting for the cord to stop pulsating before clamping it.44, 48 Two of the 4 trials that provided information regarding the use of oxytocic drugs limited administration to the period after the cord was clamped.38, 40 The other 2 trials reported use of oxytocic drugs at different stages of labor, including delivery of the placenta.41, 43 Milking of the umbilical cord was not tested in any of the trials. The majority of trials did not adequately address the hematologic status of the recruited mothers as a potential confounder in the relationship between clamping interval and risk of anemia during infancy.
Meta-analysis Findings
Among the 15 studies, a total of 1912 newborns underwent a trial of late (n = 1001) or early (n = 911) clamping of the umbilical cord. Tests of heterogeneity were statistically significant in 4 of the comparisons performed in this meta-analysis (hematocrit at 24-48 hours and at 5 days, bilirubin at 24 hours, and risk of grunting or tachypnea). However, power to detect heterogeneity was low because of the relatively small number of available trials.
Physiological Parameters
Mean Hematocrit. Mean neonatal hematocrit measured in capillary or venous blood samples collected from the newborns at around 6 hours after birth was higher for those allocated to late vs early cord clamping (2 trials, 494 infants)32, 37 (WMD, 4.16%; 95% CI, 0.83% to 7.49%) (Figure 1). Similarly, 4 trials evaluating 341 infants37-38,45, 48 found significantly higher levels of neonatal hematocrit at 24 to 48 hours after the time of delivery with late clamping (WMD, 10.01%; 95% CI, 4.10% to 15.92%). This significant effect was further demonstrated at age 5 days (4 trials, 120 infants)44-45,47-48 (WMD, 11.97%; 95% CI, 8.50% to 15.45%) and at age 2 months (1 trial, 47 infants)46 (WMD, 3.70%; 95% CI, 2.00% to 5.40%). However, no significant differences were found in hematocrit at age 6 months (1 trial, 305 infants)32 (WMD, 0.10%; 95% CI, –0.62% to 0.82%). A sensitivity analysis for hematocrit at 24 to 48 hours after delivery comparing high-quality studies with all studies showed no substantial changes in the observed differences (2 trials, 279 infants)37-38 (WMD, 4.54%; 95% CI, 2.98% to 6.10%).
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Figure 1. Mean Hematocrit and Hemoglobin Levels Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval.
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Mean Hemoglobin Level. At  7 hours after birth, the mean neonatal hemoglobin level measured in capillary blood was higher in newborns with late cord clamping (1 trial, 354 infants)32 (WMD, 0.60 g/dL; 95% CI, 0.11 to 1.09). No significant differences in mean levels were found at ages 2 to 3 months (3 trials, 209 infants)39, 42, 46 (WMD, 0.47 g/dL; 95% CI, –0.48 to 1.42) (Figure 1) or 6 months (1 trial, 356 infants)32 (WMD, 0.00 g/dL; 95% CI, –0.21 to 0.21). Of the 3 trials assessing hemoglobin levels at 2 to 3 months, only 1 was of high quality.39 In this small trial of 58 infants, levels were higher in newborns who had late clamping (WMD, 1.10 g/dL; 95% CI, 0.66 to 1.54).
Blood Volume and Plasma and Blood Viscosity. Blood volume during the first 2 to 4 hours of life was higher in infants who had late cord clamping (2 trials, 60 infants)43, 48 (WMD, 9.07 mL/kg; 95% CI, 5.81 to 12.32). Three trials (90 neonates)45, 47-48 found no significant differences with respect to values of plasma viscosity at 24 hours after birth (WMD, 0.01 mPa.s; 95% CI, –0.03 to 0.05) and at age 5 days in the same population (WMD, –0.02 mPa.s; 95% CI, –0.07 to 0.02). Three trials (90 infants)44-45,47 reported that values of blood viscosity during the first 2 to 4 hours of life and again at age 5 days were significantly higher in neonates allocated to late clamping (2-4 hours: WMD, 1.39 mPa.s; 95% CI, 1.19 to 1.59; 5 days: WMD, 0.94 mPa.s; 95% CI, 0.72 to 1.16) (Figure 2).
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Figure 2. Mean Blood Viscosity Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval.
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Bilirubin Level. As shown in Figure 3, there was no significant difference in mean serum bilirubin levels within the first 24 hours of life (2 trials, 163 infants)38, 41 (WMD, 3.81 mmol/L; 95% CI, –17.55 to 25.18). Similarly, no significant differences in levels were noted between late and early cord clamping at or after 72 hours following birth (2 trials, 91 infants)41, 43 (WMD, 18.27 mmol/L; 95% CI, –2.47 to 39.00).
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Figure 3. Mean Bilirubin Levels Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval. To convert bilirubin values to mg/dL, divide by 17.1.
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Iron Status. Iron status was assessed in terms of mean ferritin level and stored iron level. Ferritin levels at ages 2 to 3 months were higher for infants allocated to late vs early cord clamping (2 trials, 144 infants)42, 46 (WMD, 17.89 µg/L; 95% CI, 16.58 to 19.21) (Figure 4). Two trials that included a total of 165 infants39, 42 compared the effects of late vs early clamping on having ferritin levels less than 50 µg/L at age 3 months as an indicator for deficient iron stores. Fewer infants allocated to late clamping had ferritin levels less than 50 µg/L (RR, 0.67; 95% CI, 0.47 to 0.96). At age 6 months, ferritin levels were also higher with late clamping (1 trial, 315 infants)32 (WMD, 11.80 µg/L; 95% CI, 4.07 to 19.53).
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Figure 4. Mean Ferritin Concentrations at Ages 2 to 3 Months Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval. To convert values to pmol/L, multiply by 2.247.
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One trial (315 infants)32 that evaluated stored iron at age 6 months found that infants with late cord clamping at birth had higher levels of stored iron vs those with early clamping (WMD, 19.90 mg; 95% CI, 7.67 to 32.13).
Clinical Outcomes
Risk of Anemia. Compared with early cord clamping, the risk of anemia was decreased with late clamping at 24 to 48 hours after birth (1 study, 179 infants)37 (RR, 0.20; 95% CI, 0.06 to 0.66) and at ages 2 to 3 months (2 trials, 119 infants)39, 46 (RR, 0.53; 95% CI, 0.40 to 0.70) (Figure 5). At 6 months, similar proportions of infants in the late- and early-clamping groups were anemic (1 trial, 356 infants)32 (RR, 0.85; 95% CI, 0.51 to 1.43). However, in the same trial, 315 infants were evaluated for risk of iron deficiency anemia at age 6 months by considering their levels of ferritin as well. None in the late-clamping group (n = 161) vs 6 in the early-clamping group (n = 154) were diagnosed with the deficiency (RR, 0.07; 95% CI, 0.00 to 1.30).
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Figure 5. Anemia at Ages 2 to 3 Months Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval.
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Risk of Clinical Jaundice and Use of Phototherapy. A pooled analysis of data from 8 trials (1009 infants)37-38,40-41,44-45,47-48 did not show an increased risk of developing neonatal jaundice within the first 24 to 48 hours of life associated with late cord clamping (RR, 1.35; 95% CI, 1.00 to 1.81) (Figure 6). When low-quality trials were excluded, findings still showed no significant difference between groups in the risk of jaundice (4 trials, 889 infants)37-38,40-41 (RR 1.16; 95% CI, 0.85 to 1.58). Similarly, no significant differences were noted between late and early clamping in risk of jaundice at 3 to 14 days after birth (1 trial, 332 infants)32 (RR, 1.27; 95% CI, 0.76 to 2.10). In addition, no significant differences were found between groups in the proportions of infants who had elevated bilirubin levels (>256.5 mmo/L [15 g/dL]) that necessitated use of phototherapy (3 trials, 699 infants)38, 40-41 (RR, 1.78; 95% CI, 0.71 to 4.46) (Figure 6).
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Figure 6. Clinical Jaundice and Need for Phototherapy Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval.
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Risk of Polycythemia. Risk of polycythemia after birth was more common in neonates allocated to late rather than early cord clamping at 7 hours (2 trials, 236 neonates)32, 37 (RR, 3.44; 95% CI, 1.25 to 9.52) and at 24 to 48 hours (7 trials, 403 neonates)37-38,42, 44, 46-48 (RR, 3.82; 95% CI, 1.11 to 13.21) (Figure 7). A sensitivity analysis that included only high-quality studies provided a similar estimate for risk of polycythemia at 24 to 48 hours (2 studies, 281 infants)37-38 (RR, 3.91; 95% CI, 1.00 to 15.36), although statistical significance was lost (Figure 7).
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Figure 7. Polycythemia Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval.
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Risk of Tachypnea or Respiratory Grunting. No significant difference was observed between late and early cord clamping in terms of the risk of developing either tachypnea or respiratory grunting (3 trials, 296 infants)19, 37, 40 (RR, 2.48; 95% CI, 0.34 to 17.89) (Figure 8). The estimate for risk remained nonsignificant when the single low-quality trial was removed from the analysis (2 trials, 239 infants)37, 40 (RR, 1.24; 95 CI, 0.49 to 1.37).
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Figure 8. Tachypnea or Grunting Among Infants With Late Cord Clamping (LCC) Relative to Early Cord Clamping (ECC)
Sizes of data markers indicate the weight of each study in the analysis. CI indicates confidence interval.
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Risk of Admission to the NICU. Only 1 trial (185 infants)37 reported on admission to the NICU, and this study observed no significant differences between late and early cord clamping (RR, 2.02; 95% CI, 0.63 to 6.48).
Sensitivity and Subgroup Analyses
To determine whether the extreme definition of early (up to 1 minute) cord clamping used by Nelson et al40 had an impact on the overall findings, a sensitivity analysis was undertaken. The results of the meta-analyses with and without these results did not show any significant changes.
Due to lack of data in the trials on potential confounders, subgroup analysis was possible only for the variable that represents "height of the newborn after birth in relation to the level of introitus or placenta" for a limited number of the outcomes. Our subgroup analyses are limited to comparing composite data from studies in which the newborn's level is known, rather than being able to compare data for individual infants. The favorable effect of late clamping on neonatal hematocrit at age 6 hours remained significant whether newborns were kept at the level of the placenta31 or placed on the mother's abdomen.37 The subgroup analyses for data collected for hematocrit at 24 to 48 hours and at age 5 days showed significant differences in favor of late clamping, irrespective of the level of the infant during the delayed time (hematocrit at 24-48 hours in infants kept above level of placenta [3 trials, 311 infants]37-38,48: WMD, 6.08%; 95% CI, 4.63% to 7.54%; in infants kept at level of placenta [1 trial, 30 infants]45: WMD, 16.00%; 95% CI, 12.05% to 19.05%. Hematocrit at 5 days in infants kept above level of placenta [2 trials, 60 infants]44, 48: WMD, 9.03%; 95% CI, 6.46% to 11.60%; in infants kept at level of placenta [2 trials, 60 infants]45, 47: WMD, 15.00%; 95% CI, 12.35% to 17.65%).
The reducing effect of late clamping on risk of anemia at different points within the first 6 months of life appeared to be sustained irrespective of the level of the newborn after delivery. This was demonstrated by the comparable results of the trial by Ceriani Cernadas et al,37 in which newborns were placed on the mother's abdomen, and the trials by Gupta and Ramji39 and Grajeda et al,46 in which newborns were kept at levels lower than that of the introitus. Lower rates of iron deficiency anemia at age 6 months were also reported among infants held at the level of the introitus in the study by Chaparro et al.32
Values of ferritin during the first 6 months of life were higher in infants allocated to late cord clamping and kept either at the level of the placenta (1 trial, 315 infants)32 (WMD, 11.80 µg/L; 95% CI, 4.07 to 19.53) or below (2 trials, 144 infants)39, 42 (WMD, 17.89 µg/L; 95% CI, 16.58 to 19.21). Rates of polycythemia during the first 48 hours of life were higher when clamping was delayed, whether infants were held at the level of the introitus32 or below46 or placed on the mother's abdomen.37-38
Although it was not possible to control for the potential modifying effect of breast feeding or iron-fortified formula on iron stores and risk of anemia, Chaparro et al32 reported that late clamping increased body iron stores more in infants who still breastfed at 6 months than in those no longer breastfed. These authors also reported that late clamping had greater effects with respect to stored iron in infants not receiving any iron-fortified formula or milk at 6 months than in those receiving such products (early vs delayed clamping among those receiving formula or milk: WMD, –16.9 mg; 95% CI, –38.60 to 4.90; among those receiving no formula or milk: WMD, –46.80 mg; 95% CI, –77.30 to –16.30).
In 1 large randomized trial, late clamping was found to have a greater effect in reducing the likelihood of anemia in infants born to anemic mothers vs those born to nonanemic mothers.32
COMMENT
Our results showed that delaying clamping of the umbilical cord for at least 2 minutes after birth consistently improved both the short- and long-term hematologic and iron status of full-term infants. Placental transfusion associated with late compared with early cord clamping resulted in consistently higher hematocrit levels within normal physiologic ranges and in improved markers of iron status over the first months of life without having a significant impact on the absolute values of bilirubin and plasma viscosity during the first week of life. Although late clamping was associated with a moderate increase in blood viscosity and increased rates of polycythemia, there was no evidence of any significant harm as measured by the need for phototherapy to treat jaundice or by admission to the NICU. The risk of polycythemia was not significant when only high-quality studies were considered. In addition, none of the polycythemic infants evaluated in this review were symptomatic (ie, had symptoms of central nervous system, cardiopulmonary, gastrointestinal tract, or renal impairment).71
The presence of polycythemia in both the late- and the early-clamping groups suggests that mild neonatal hyperviscosity with subsequent uncomplicated polycythemia can occur in some normal healthy neonates, regardless of the time at which the cord is clamped. This is the consequence of a rapid change in hematocrit that normally occurs during the first 24 hours of life.72
The RRs of some other potential adverse outcomes of late cord clamping (tachypnea or grunting, admission to the NICU) were elevated, although not statistically significant. None of the infants with tachypnea or grunting after late clamping needed supplementary oxygen beyond 24 hours of life. This suggests that these respiratory signs are not clinically significant but are part of a physiologic compensatory mechanism. However, since these outcomes were based on a small number of trials and infants, further study is warranted.
Perhaps the most important finding was that the beneficial effects of late cord clamping appear to extend beyond the early neonatal period. Our meta-analysis estimated a significant 47% reduction in risk of anemia and 33% reduction in risk of having deficient iron stores at ages 2 to 3 months with late clamping. Although the risk estimate of anemia at ages 2 to 3 months was pooled from 2 small studies39, 46 and the loss to follow-up in 1 of these was 40%,39 this finding agrees with the results of a large, well-designed and well-executed randomized trial with respect to the sustained effect of late clamping on other indicators of infant hematologic status at age 6 months: iron stores and ferritin concentrations.32
Because of the relatively small number of studies that reported on any single outcome, use of a funnel plot to explore the possibility of publication bias was not possible. We were reassured that not all studies had positive outcomes for all results and that we were unable to find any unpublished results through contacting key researchers.
The strength of evidence may be limited, since not all included trials were randomized. However, we attempted to control for this by stratifying our results by quality of design, and our results did not vary substantially. Not all studies measured the same outcomes at the same points, and, as a result, several outcomes that we studied are reported by 1 or a small number of studies. In addition, although some individual reports addressed possible confounders such as maternal anemia or iron-fortified formula, we were not able to control for them in our analyses. Despite these limitations, however, because of the consistency of findings across trials, we believe our findings are reliable.
Few of the studies we reviewed reported on maternal outcomes, including early postpartum blood loss. This is particularly significant because active management of the third stage of labor includes administration of a uterotonic agent before delivery of the placenta, and early cord clamping and cutting is recognized as a means of minimizing blood loss for women in the early postpartum period. Although conclusions about maternal outcomes cannot be drawn from our research, it is likely that delayed clamping is compatible with active management of the third stage of labor. Uterotonic agents administered following birth and prior to cord clamping have been shown to increase the rate of placental transfusion and are thus likely to enhance the effect of delayed clamping.36 Although this approach has not been studied, a joint statement from the International Federation of Gynaecology and Obstetrics and the International Confederation of Midwives on active management of the third stage of labor already recommends that delayed clamping be incorporated as part of the active management approach to placental delivery.73 In a recent literature review, similar practice recommendations pertaining to third-stage management were made for providing care in resource-poor settings.28
Late clamping of the umbilical cord is a physiological and inexpensive means of enhancing hematologic status, preventing anemia over the first 3 months of life and enriching iron stores and ferritin levels for as long as 6 months. Although this is of particular importance for developing countries in which anemia during infancy and childhood is highly prevalent, it is likely to have an important impact on all newborns, regardless of birth setting. Additional research may be helpful in refining the timing of clamping by determining the minimum time required to provide maximum benefit associated with placental transfusion. Questions remain about whether the optimal time for clamping is affected by the use of oxytocic drugs before the delivery of the placenta or by milking of the umbilical cord. We believe that this meta-analysis supports incorporating into clinical practice a minimum delay of 2 minutes before clamping the umbilical cord following birth for all full-term newborns.
AUTHOR INFORMATION
Corresponding Author: Eileen K. Hutton, PhD, McMaster University, 1200 Main St W, MDCL-3101, Hamilton, Ontario, Canada L8N 3Z5 (huttone{at}mcmaster.ca).
Author Contributions: Dr Hutton had full access to all of the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis.
Study concept and design: Hutton.
Acquisition of data: Hutton, Hassan.
Analysis and interpretation of data: Hutton, Hassan.
Drafting of the manuscript: Hutton, Hassan.
Critical revision of the manuscript for important intellectual content: Hutton, Hassan.
Statistical analysis: Hutton, Hassan.
Obtained funding: Hutton.
Administrative, technical, or material support: Hutton, Hassan.
Study supervision: Hutton.
Financial Disclosures: None reported.
Funding/Support: Dr Hutton is a Canadian Institutes of Health Research New Investigator and a Research Scholar with the Michael Smith Foundation for Health Research at The Child and Family Research Institute, University of British Columbia. Dr Hassan, who is currently a PhD candidate in the Department of Health Care and Epidemiology, University of British Columbia, was funded for this project through a doctoral studentship made possible with funds from the Michael Smith Foundation for Health Research and from The Child and Family Research Institute at the University of British Columbia. She also holds a doctoral studentship award from the Western Regional Training Centre for Health Services Research. The award is jointly funded by the Canadian Health Services Research Foundation, Alberta Heritage Foundation for Medical Research, and the Canadian Institutes of Health Research.
Role of the Sponsors: No funding agency or sponsor played any role in the design and conduct of the study; the collection, management, analysis, and interpretation of the data; or the preparation, review, or approval of the manuscript.
Author Affiliations: Department of Obstetrics and Gynecology, McMaster University, Hamilton, Ontario (Dr Hutton); and The Child and Family Research Institute (Dr Hutton), Western Regional Training Centre for Health Services Research (Dr Hassan), and Department of Health Care and Epidemiology (Dr Hassan), University of British Columbia, Vancouver.
REFERENCES
1. Moss AJ, Monset-Couchard M. Placental transfusion: early versus late clamping of the umbilical cord. Pediatrics. 1967;40:109-126.
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